Trial frame



Nov. 9, 1943., w. F. PECK r-:TAL

TRIAL FRAME original Filed oct. 24, 1939 5 Sheets-Sheet l gl Z 056 7 nl|4l| ./55

40:5 ao 2B INVENTOR WILLIAM F- PEcK -ALBIN A. GR lsAR a a o #a3 .L y,

7 6 w 9 w 4 H1 l 6 5 ..1 m. 5 6 w n? e ATRNEY :as y

Nov. 9, 1943. w. F. PCK HAI. l

TRIAL FRAME 5 Sheets-Sheet 2 Original Filed Oob. 24, 1939 R R A Y m M3 E w11 PA wmyn I M6 .A AA. um. u B L WA Nov. 9, 1943. w, 1,-, PECKl ETAL TRIAL FRAME Original Filed Oct. 24, 1939 3 Sheets-Sheet 3 R R A 45 mms l El 4 o` oo 5 MPAD I MG. mA

TT NEY Patente-d Nov. 9, 1943 "UNITED PATENT 403'13171C1'11,` i Y f` i ,2,333,733-'14 i ,y

c warms i 'william F. reekjnenmore, and Albin A. Gradisar., BuffaloN. Y., assignors to American Optical Company, Southbridge, Mass.,a voluntaryas sociation of Massachusetts Y ,1'

Original application October` 24,1939, Serial l 301,006.` Divided `and this application July 31, f

` 1941', Serial No.,404,854

` (Cl. 88-r-20) t 8 Claims; This invention relates to improvementsin trial frames and has particular reference to a` trial frame which may be quickly and easily adjusted to the facial requirements `of different individuals and adapted for use in supporting trial test lenses befcrethe eyes of" an individual. The application is a. division'of our, co-pending application, Serial No. 301,006, ledOctober 24, 1939, now Patent 2,256,491, September '23, 1941. .r One of the prime objects of the invention is to provide a light weight trial frame of the above character vwith simple and eflicient operable partswhereby the trial` frame may be quickly and easilyadjusted to the facial requirements of an individual and with the adjustable parts maintaining a rigid and positive adjusted relation with each other. Another object of A the invention. Vis to provide improved means for supporting'trial test lenses before the eyes of an individual with 'the' lenses before each eye `mathematically spaced relative to each other and'to the cornea of `the eyes of said individual to'give exact additive effective power when test lensesv of theadditive type are used whereby said means may be adjusted to the facial requirements'of an individual while main# taining t parts in rigid adjusted` relation" with each other and which is rigidly andl accurately built whereby theparts will not become displaced or strained during -normal use and accuracyand ease of operation isachived tl'1roughout'Y the life of theinstrument."` Q g Another object is to provide novel v'corneal aligning means and .cooperatingV novel'meang for adjusting a trial frame of the' above `cl'laracter to position the lens cells in desired spaced'relation with the lenses` andtoiitthe-trial'frame generally to the facial*characteristics of `anlin' dividual to be tested.` A Another object is to provide a trial frame with temple supports locatedl above the u'sefulneld of side vision and above the'pupil of theeye whenin position of useon the "face when the eyes are held for straight ahead vision.y

VAnother Objectis to provide van arrangement whereby the vlens cells' of thetrial frame ofthe` character described may bequicklyandfeasily Other objects `and advantages ofv theiinven-4 tion will' `become apparentirom the followingdescription taken in connection `withthe accompanying` 'drawings andit will be "apparent that any'vmodication Inightbe'4 made in-the detail of construction and arrangement of parts shown and described vwithout departing from the 'spirit, of the invention as expressed inthe accompanyingclaims. We,.therefore, V`do Ynot wish to be limited to the exact: details-and arrangements shown and described asthepreferred iormon'ly hasl been given by way of illustration.

adjusted in varying spaced relationfwi'thveach other according to' the interpupilar requirements of an individuali.4 y l Y Another' object is to'` provide th corneal aligning device whichr` has a three point-aligning functionr or gunsight function'v in locating the lenses in desired relation with'th'e eyes. ,I

III:V and Referring `to theidrawings: r Fig. I is a plan AView Iof the device embodying the invention;

/ Fig. II is a frontfelevationv of said device;

Fig. `III is a side elevation of said-device; Fig. IV is an enlarged fragmentary.` face view Aof thenose restsupporting means;l

F1g.IV-`-is a sectional view taken asfon line v v orrigrv: u ,i i;

VIl is a fragmentary enlarged sectional view taken as onlineVIl--VIof Fig. II; I Fig. VII is'afragmentary enlarged sectional View takenas on une virvirofrig. 1;; 1 FigQAVIIIW'is an enlargedlfaceview ofone of the lens cells of the device embodying'therin# ventiony" Y i ,M y Fig. IX isv af sectional view taken as on line rrr- IXorFigJvIII; f i ",Figz X` is a fragmentary plan view of the corneal aligning' means diagrammatically illus# trating its use;'

rFigQXIIv its an enlarged fragmentary partial sectional view taken as on line XII- XII'of Fig.

Fig. VXIII is Orman. y, f y y Trial frames4 for supporting trial test lenses before the eyesof an individual have heretofore an "enlarged section :of a lportion `beenyconstructed .withyarious adjustable parts whereby the frainefcouldbe frittedgto 4the facial characteristics of an individual whose eyesfwere to be tested. The difculty, however, with most of these prior art trial frames was thatrthe parts couldjnotbe adjusted'in` a simpleandefcient inanner andwould not' retain their adjusted relationY during use. The parts would soonfbecome worn and wobbly and would not retain 'the lenses v in proper relation with theeyesl Most prior art trial yframes, even-when provided 'with corneal aligningmeans did `not insure that'the said lenses were properly i positioned l in' spacedv relation with j the member E.

View of the eyes during the fitting of the trialv i frame to the face and when positioning thelens= cells in desired spacial .relation with the eyes.

It is therefore one of the 'primary objects of this invention for a trial frame to have its temple supporting means located above the useful field of vision whereby the examiner or practitioner can obtain a clear view of the' eyes during the aligning of the lens cells therewith, which will give the accurate angle of temple relative to the eachhave a recessed side surface I5 in whichl point of the lenses of the mounting which isl to be primarily used for the accurate locating of the lensfcell's and lensesandequal spaced relation.

with the eyes through theprovision of a three point sighting. when aligning the corneal aligning means with the cornea of the eye, which is light in Weight,.has. simple and efliciently operable parts whereby the frame may be quickly and easily adjusted to the facial requirements of an individual and with the adjustable-.parts maintaining a rigid and positivefadjusted relation with each other, and the method ofvmaking the same.

.Referring more .particularly .tov the drawings wherein like characters of reference designate like parts throughout the. several views, the device embodying the invention comprises a head I Yhaving longitudinal slideWays 2 therein. In 4each slideway Zither-e is mounted a slide block 3, see Fig. VI. Each of the-slide blocks 3 have a threadedstem 4- extending therefrom in the direction of the longitudinalaxesfof the-slideways 2. The stem 4,v as illustrated in Figs. II and XIII, lis received within the threaded bore 5 of a hollow member 6 having a ngergrip end 1 thereon. A memberi is provided vwith an externally threaded endgportion 8 threadably supported within thewthreaded bore of a sleeves secured to the head I by a set screw or the like I0 in axial alignment withthe slideway 2. The-threads of the stem 4 are opposite to those of the external threaded end 8 of the member 6., "For example, the thread of the stem 4 in one instance is a left hand thread, preferablya double thread, and 'thegthreads ofy the externaly threaded end 8 are right hand threads. The threads for the respective portionon the other end of the'head are in reverse orden Itis to be noted that when the finger grip end 'I "isfrotated Athe" threaded endr 8 of the member 6 will cause said member to move longitudinally of the sleeve 9 either in or out dependingupon thedirection of rotation of Simultaneous to the movement of the member .6, longitudinally ofv they sleeve 9 throughY itsthread connection dwiththe, said sleevedy the'threadedfste'm'-4 Vwill'. be .drawn in wardly.A ,or outwardly i ofthe hollow member. 6.

The arrangement.l is. such that. when the 'member 6 is. threaded in a. directioninivardly ofA the sleeve Ely the stem 14`vvill. bethraded in a. direction out-y vvardlyl ofthe boreof the-sleeve 9. AThis causes the speed.Y of'movement'o'ffthe slide block 3l longiwdieally births Skeeter?- 2, wb@ greatly im'rfeasd over the., Simi-.1er Lmet@.1119111t ,which mgllbpbe introduced vby a singlethread connection-... The head.' k. hastwo,- slideways 2` therein andv theyslide.- blocks `and associated. mechanism similaryto; that setzforth above arerassociatedwith each of said slideways. To each ofthese slideblocks 3 there v is attached, by suitable projections I I, lens cell supporting members I2. The projections II are secured to the slideblocks 3 by soldering, Welding or by rivets or the like I3, as illustrated byy dotted lines in Fig. VI. n `When the slideblocks 3 therefore aremoved longitudinally of the slide- Ways 2, the lens cells I2 connected with said I `slideblocks through the projections II, will. be simultaneously moved toward or away from each other. The lens cells I2, as shown in enlarged scalefin Figs. VIH and IX, each comprise annular like members I4 formed integral with the projections and I'annular portions thereOf lying in a single plane.` 'I'he annular like members I4 is ttedan'nular gear members I6. The depth of each recess I5 is such that the outer surface of saidannular gear members will lie substantially flushA with the adjacent side surface of the an.- nula'rlikemembersxIlI. The annular gear members I6 areeach frictionally secured'to a ringV II. rotatably tted within the central opening of the annular-like members` I 4. The rings I1 each have an integral flanged portion I8 having an intermediate step-like shouldered portion, I9 against Whichthe. annular gear I6 rests when in frictional engagement with the ring I'I. The shouldered step-like portion I9 forms a space-20 between the gear I6 and the flanged portion I8 of the ring .II. Within thisspace there is mounted a plate 2| ofyan arcuate shape. The plate 2| is secureditol the annular like member I4 by screwsorthe like-22. VThe plate 2| functions to rotatably supportthe'gear I 6 inthe annular like member.' I4.. The gear I6 being. frictionally secured tothe ring I'I thereby retains thering in i associated relation with the annular member I4. The angedjportion I8 functions to conceal the gear Within therecess IG. The rings I'I which are secured to the gears. I6 are adapted to rotate with said gears-internally of the annular like members I4 and are each provided with spaced.

studsg23 an d-2 4. The studs 23'and 24 are each provided with a pluralityof spaced notches 25 in which auxiliary trial lenses areadapted to be supported. The said trial lensesl are held in the notches-ofsaid stud by a plurality of springiingers 2 6 secured ltoV the studs 24 by screwsfor the like 2,1. The auxiliary trial lenses are adapted to be snapped into and o ut of tted relation with the notches,.25"and the said notches 25` are so spaced as to retain the said lenses in desired spaced relation with each other. 'I'his spaced vrelation will loedescribed- .more in detail hereinafter. annular like members I4 are each provided on the side thereof opposite the. forwardly projecting studsj24 and 2 5-with an auxiliary trial lens holder Zhaving spring-lingers 29 for retaining thetrial lens in axial alignment with the ring I1. 'I'he auxiliary lensholderv2 8 isadapted to support spherical lenses whilethe spring fingers 26 and associated netched studs 23 and 24 are adapted to support cylindrical and prismaticlenses. The auxiliary lensholding studs 23. and 24 are adapted to be rgtatedthrough' rotationof the. rings I'I. This4 isA brought about through the provision 0f an intermediate gear 30 rwhich meshes with a gear. 3 I- mountedon the end of a Ystern 32 rotatably supported withinfa bearing. 33 carried by the annular like member I4. The stein 32.'i s.providd of gears i6,` 30 4and 3L* *A suitable' screw orrthe like 35.. threadedly: supported on .thel A.bearing 33 is adapted to be adjusted intosandf'outof binding relation with the stein 32 vso astovlock the gear-3| against rotation `'when .the ringA I`1..has been rotated to desired position..ijThefipurpose 'of rotating the ring". Al1 isLtfmove-theaxis or axes l of the .auxiliary cylindrical `or prismatic lenses supported by the lstuds Y 23 `and 24'. 'and associatedspring lingers 426'to`- desired meridinal position. 4The propermeridinal position. is de-` termined through the provision of asuit'able protractor'or degree'scale`36lformed onrthe outer surfaceof the arcuate plate" sections 2l, see Fig.

-II. The longitudinal axisof the bearings 33 and thestems 32rotatabl`y supported thereby are located above the 'horizontal center lineof the `an- ,nular' like members I4 `and project outwardly of said annularlike membersfil along alinesub.-

stantially yparallel withr said horizontal iline pas'sfing. through said annular likem'embers and along a line radial with saidannular 'like members.

The bearing portions `33 provide ahingeconnection forl the temples'l31- and support 'saidtemplesi normally above the"useful" eld of sidet 'vision `when the deviceis in position of use on the face of anindividualunder test.` `The temples S1-are each provided with aportion 38having. a bifurcated end 39 ypivotally.attached to the bearing i Vportion 33 as illustrated at`40fwith the branches of the bifurcation `39 straddling ysaid ybearing por` each temple is provided withiabearingf'fac 44l`.

The base of the `bifurcation39`is adapted to be ,f

engaged bythe end 42 ora-blade spring 43v securedto the bearing portion 33by screws o'r the like 44. The end 421`of`the kblade spring V43 r'is adapted to bear against the bearingace`4l`pwhen the temples are in extended relationor inposition of use. The V"said springs vare adapted to limit the-outward pivotalmovement ofthe temples about their pivot'connections 4D sojthat when the-temples are moved outwardly beyond4 a given point'the blade springs 43 will becompi'jessed and i will tend to re'z'silientlyrurgev thetemples inwardly. This function is adapted tocause vthe temple ends $5 to resiliently grip the sides of the head ofthe individual. When the 1 temples are folded ythe blade springsl 43 are adapted to extend through the bifurcated ends of the temple. "The relatively rigid portions-38A are provided with a slotted recess 46,` see Fig. VII, in which a har-like inter'- mediate section 41 `is -pivotally supported as il lustrated at 48,;- `Adjacentthe pivotal connection 48 of the bar-like'sectfion 41`rtherjsa'id bariis pro-H vided wthopposed edge'fportios'having a point contact 49`with spaced dflanges 5I] and 51 carried by a screw member 52. The screw 5 2 1s supported Within the threaded bore of a boss 53.0141` i the relatively rigid portion serieu/52 is provided with a'thumb piece 54 by which it may be rotated. Rotation ofthe screw in one or 'the other directions causes 'the flanged portions 5U and 5I to raise or lower the intermediate barfore causes "tlie'ring l1 to rotate throughltlietrain y i V3 48` andindicator 56 on "said lportion- 41. .see Fig. III. l 1 This? determines thev angular disposition' of the plane of the lens cells relative tothe longitudinal axis of the temples'l Thesection 41; as il- .lustrated in FigsrIf` and III, extends through a bearing 51 carried bythe end of a bar 58 simulating thebar 411. The bar 41 likewise isl provided with a bearing member 59 through which the bar 58 slidably extends. The bars 41 and 58are substantially 'rectangular in cross-sectional shape i andhave relatively ilat contiguous surfaces adapted to be retained infrelatively intimate sliding relation with eachother. LA suitablev coil vspring or the like .60 is mounted Withinthe'bearing` 51 so as'to maintain a frictional binding relation betweenthe adjacentportions of the'fbars 41 and 58. 'Ihes'prings 'are' adapted to retain fthe sections 41 and 58 longitudinally adjusted rela" ltionwitheach other. 'The purposeof this adjustment is to increase or decrease the' length of temple'so a's to meet the requirementsofl different individuals. f The length of 'temple is deter-` minedv through the "provision of a 4suitablescale 6| 'on thesidesurface'of'thefbar 58. The bearings 51 inwhich the frictionl coil springs" BIJ are -housed provide ymeans adapted to1be engaged by thenger of thepractitioner or 'examinerwho fits theA device to the individual to be tested soV that the ends 45 of 'the temples may be' quickly and `easily adjustedto relatively `intimate fit-be.- hind `tl'lefearsA ofthe? individual and With the side ofthe head of said individual. Thisu is brought "about by merely moving the housing 5T longitudinally ofthe bar-like section 41 toward'the front of the device. It beingundersto'od that the temples are I initially adjusted to substantially their greatest'lengtli so that when the deviceis placed onthe face the ends"45 ofthe temples maybe eased into'position by exertinga forward `pres"- sure on the bearing members 51;:"The central portion ofthe head AI isprovided with*l a housing 62 carrying adjustable supporting mechanism for a noserest; 63; The nosefrest 63"comprises 'a bearingportion`64 pivoted' at 65 and66 adjacent i the opposed ends thereof to a bracket 61. 'The 'bracket 61 is mounted adjacentthelower end'of a slide bar 68, see Figs.' II; IViandV.' "The -bar 68 is preferably rectangular'or square in crosslike portion Aof the temple aboutits pivotal connection 48'with said portion`38. The bar like member 41 is of a thickness so as to substantially intimately t transversely within the slotted recess 46 and yhas arelatively intimate sliding ,j

t with the side walls of saidY slottedrecess so that there is little if any side playabout the `pivotal connection 48. lThe angle of vadjustmentlvof` the intermediate section41 is" determined through theprovision of a suitable scale`55 on the portion section and isslidably supported within a tubular bearing 69 having a bore of ash'ape to slidably receive the bar 68.` "The tubular ybearing' 69is` pivotedto the side Walls of the housing 62` internally! thereof,A as illustrated at 10, and is adapted to swing aboutsaid pivotsvforwardlyand Vrearwardly about the planet of the lenssupporting' cells .12. The tubular bearing-68 is adjusted about itspivotal connection 10 within'the housing 62"r by athumb screw 1I threadedly supported -by a boss 12 on said housing: The screw has anv end `13bearing against thefront'surface ofthe tube and adjustment thereof towards the tubular bearing 'is adapted to move 'thebearing rearwardly about the pivotalconnection'1ll. A suitable blade spring or the like 14 secured adjacent ione end thereof to the tubular` member by a screw-'orthe like 15 and having. an end` 16 bearing against the inner side'wa1111'of the housing 62 is adapted to resiliently limit the pivotal movement of the tubular bearing about the pivotal connectionsp1. The spring 14 constantly urges the tubular bearing 69 into engagement `with the end 13 vof the thumb "screw 1l. VThrough rotationof the adjustment screw-1l the nose bearing portion 64 may be moved forwardly or` rearwardly as desired: The b'ar 68 islprovided with a hollo'w threaded bore 18: .There isthreadedfin this bore 18 a screw 'I9 'rotatably supported by .the upper end gof the tubular bearing '69, as' illustratedatll.v yThe screw member has ansenlarged headportion 8l yprovided with a transversely exe tending stud 82 :which ts within. diametrically opposed slots'83 formed in a cup-like member' 84. Th'ecup-,like member 84 is rotatably supported on` a stem'y 85 mounted inV a`bearing8 6 forme'd on the housing62. 'The stem-85 has a thumb vpiece 81 by which it may be-rotated. -Thelongitudinal axis of the stud 8,2fispreferably lsubstantially co.- axial with` theaxes of the pivot Iii sothat when the tubular bearing 69 is tilted forwardly or rearwardly through manipulation ofthe screw 'I I the tilting will'eectively be about, the longitudinal axis of Athe stud 82; The stud 82, tting within lthe diametrically opposed slots ,83 in -the cup-.like

member 84, is adapted to permitrotation ofithe screw I9 at different positions of tilting of the tubular bearing Y69 and the arrangement provides a universal type 'coupling between the screws 'i9 andthe thumb piece 81. When the thumb piece is rotated the cup-like vmember 34 is simultaneously rotated. The key-'like connection; between the` stud 82 and the longitudinal'slots ,83 infthe cup-like'member transmits said rotary movement to the screwcausing it tothe threaded into and out ofthe threadedbore I8 of thebar 68py This rotation therefore of the screw 'I9 will move-the bar 68 inwardly and outwardly of the tubular member 69 depending upon the direction ofretation of the thumbpiece 8l.. This adjustment permits the nose bearing portion 6G to be raised or lowered as desired with respect to the lens supporting-cellsof the device. The' purpose of adjustably supporting the-nose bearingeportion for upward anddownward movement .is to provide means wherebyl the lens cells maybe raised ore lowered with respect` to theV line of straight ahead vision with the eyesof the individual under nealV aligningmeans whereby the lens vcells .and lenses carried by said cells may be 'positioned lin y desired` spaced relation with. thexfront surfacey test.I v The purpose Iof kadjustablyy supporting the nose bearing portionr 64 forr movement inwardly or outwardly is tomove the lens cellsv andthe trial lenses carried thereby into desired` spaced relation with the: eyes of theindividual. Thisis important in atrial frame ofthe character dep,- scribed as, the trial lenses which are adapted for use with said trial `frame have their power; or powersr computed for a given distance of ocular surfacefrom the eyes under test and the accurate eifective power canonlynbe Vobtained whenithe lenses areV at their computed distance from the eyes. under test. Adjustment of the nose bearing portion inwardlyoroutwardly permits accuratelocation of the ocular surface or surfaces of the trial lenses relative to the corneasof` the eyes of the individual under test. To permit the lenses in accurate spaced relation withthe ieyes suitable corneal aligning means 88 are provided on the outer sides of the vlens cells I2. "f' f The cornet-ily aligning means comprises supports 89 which are formed integrally withthe annular like member I4, see Figs. IX and X. The supports 89 extend'outwardly of the sides of the annular members I4 substantially along the horivZontal center line of said annular members and then extend rearwardly, as illustrated at9il. The rearwardly extending portions 9B are provided with a central longitudinal slot 9| having a graduated scale'92 thereon adjacent the. lowerlongitudinal edge of the slotted portion 9i. The rearwardly extending portion 99 has a; member 93 pivoted thereto,.as illustrated at 94, v'The member 93 has a'deected end 95 provided Withanedge ofthe corneaof theeye.,v When, not-inuse, the

member 93 is adapted to -beswung to a position j A1 indicated .by A.the dash lines :IUD in compact relationl .with the rearwardly extendingpor. c tion` ,.9Elffoff the: support 89; A-,iTh'e- :member isheld Ain its inwardly or {,outwardlyfadjusted position by means of ablade spring IUI "Y having 'an end |02 which is adapted to'engagethe outer side surface of the member93 vwhen in ad.-

J'acent relation with the support 90 and constantly `urge said member-93towards said support; so as toretain itgin-intimate relation therewith.v The'-y `blade spring IUI, when the member A93is folded outwardly, as shownin full [lines in Fig.-X,'is

adapted to extend through alongitudinals'lo-t ID3 in saidmember and isy adaptedto 'bear against Y' an edge surface |04 of said kslotted portion; toA

retain thepmember 93 in said outwardly adjusted position.' lThe longitudinal slot rID3 also V enables the corneaof the Leyeto be viewedwhenthe memberf93 is in intimate relation with the rear-r wardly extending portion 90 of the support. The Y member 93 may ormay notjbe provided with .a scale similar to the scale 92cn the outersurface thereof adjacent the :longitudinal edge of the slotted 'portion I 03.v Whenusing test lenses of thetype computedto measure the errorsofrefraction ofthe eyesiny the so called vertex 'of refraction or'eifective power; namelygpower cal.- culated rfrom the eye or, ocular side, ofthe lens wherein itV is essential that the -lenses `loepositioned atV the calculatedy distance from the cornea of theeye, the longitudinal edge 96 of the member 93 is preferably aligned with'the zerofline 91 of the scale 92 and the front surface 930i" the cornea of the eye.v `This provides 3 points lOfalignment so that an accurate alignment may be obtained. It vis to be understood that the lensesmust be supportedin `computed spaced relation with each other so las to-have-a resultant Veffective power simulating the actual power of 4the'prescripijiye lenses fwhich are to be permanently usedbefore the eyes. In order 17o-accurately locate the lenses in desired spacedr relationwith eachother the.

` distance between theinotches 2510i the studs 23 and 24, whichare adapted to support said lenses y during use, is calculated .to be that ofthe computed distance at which the lenses were designed 'to bespaced'relative to each otherand which whenheldin said spaced'relation will. introduce the desired refractive power. The lenses, therefore, of said cells are calculated ineffective or vertex refraction vas it is sometimesfcalled so that the combined values of said lenses; :whenin posiv tion before the eyes and when at the computed distance from the corneas of the eyes will produce the actual prescriptive value desired, that is, the resultant power of the combination ofv trialflenses will be that introduced by a,-singleprescriptive lens -made to.y said total pewerand supported at .said computed distance from the eyes..k In most instances;y with average. facial characteristics the trialframe may be positionedin desired location on the face. In some restrictedn instances, lr'ovv-I ever, due to abnormalitieslin;facial contouritwill y not be'possible'to locatelthel lens supportingcells in desired spaced relationvlitlr fthe corneas of: the eyes. In these instances, therefore, some-means must be provided @for V'definitely knowing .the amount of off position from the alens'cells from the' desired zero (positiony ybefore the eyes as the prescriptive correction arrivedfatfrom .the test must be modified by the amountfof"oif-position of the lens cellsXfroin the cornea'stofgtheleyes in i order to obtain the;:accurateresultant` prescriptive power.V In order to makezthis' possible, a scale 92 is provided; This scalewill indicate the extent of off position from .thelzero `settingsf Although theV4 trialY frameis designed particu` larly for use-With :test llensesoffthe,;type,set forth above, it is to bezunderstood "thatl theyqmayxbe used with any/ldesred'type ofvtest lenses` and the graduated `scale '92 'lande thezknovvnspaced relation ofthe corrected lensesifvvill-be quickly` l eiective With all testwlense's'tin arriving .'atlthe accurate: prescriptive' value. fWhen K.used with lenses of thefvertex refraction -typeinoadditional computations are necessaryIfrornthe:indingsfofi the test, that is,1if the corneal aligning means 88 has sitsjzero;-settingv alignedvwith the cornea ofV the eye. the lenses arei so .designed andlwthe trial frame is so designed asto support said lenses in computed spaced,relation-Witheach otherfand the computed distance;frornthepcorneaof the eye is suchxthati the povver:arrived at' either through the use of one or` a plurality: of test lenses Will be the accurate prescriptiveapowerf required tobe introducediinza single prescriptive lenstto i be permanently wornrbefore the eyes of the patient and at the prescriptivestandarddistance from theeye., l 1w 'l l i" In adjusting the trialnlframe .to-fit thei individualunderitest andi'for useiwith test llenses of the type ,having vertex refraction':.or .the lenses commerciallyfknovvn as additive lenses:the. tem- Wardly of the' Alens t cells: supports |12 during' the l test and when Lcylindricallflensesa'arefused: the

lens` cells are rotated i orderi'to obtain the proper axisof thencylinders 4or prisms as the case may-be. I Thescale :i365 onltheY front ofthe lens cells, Will indicate thetrue axial position "of .the cylinders `on prisms;` All offtherequired adjustf i ments may be made byimanipulationof the vari-f.

oustl'iumb'ipieces il; 34, Eiland lswithout the hands i .of l the 1 operator j engaging the; facefof the individual? under ;test.f The properangle iof the lensV .1cells with#V respect :to the i'line` of straight ahead visionimay'be obtained byadjustment .of

the thumb piece. and this'anglemayibe'iolc-iA tained *bythescale and; indicator means 55,and

546 atth'elsides of thetemple. AThe length ofthe y temple `required @by the4 individual` may.` be yobtained` byithe scale 6l.; Theivarious adjustable i parts lof the device; are` all" intimately 5 fitted with each othergso astoiretain the said parts in relatively rigid ,relation with eachother. The con-.- struction ofthe various parts is .of `the simplest formisothat-the device may bef-quikly and.,easr

ily assembled and inexpensively manufactured.

.It isparticularlypointed out that alli vadjust ments may be positively" controlled. A suitable y scale I (i'l `isprovided. Von `the front of the Lbridge Corneesfof theV reves-iV 4rinesei sighting it points i aid in Obtaining. 0i-inaccurate position Qi-thef @enters of the lens cell s gw ith;thje eyes oryiththelineof j straight ahead vision ofsaid-eyes?` The particu- 1er arrangement@ adinstabletsnnprt .for the,

to the individual or patient'funder ,test Vrests fthe trial `frame*adjacent the .temple hinge connections vvithafiingerV engaging kthe respective housings g containing the friction` springs; '60. i The temples are spread outwardlyiand the trial frame is then advancedtowards theleyes with thetemples fitting overv the ears ofathe individual. The nose rest t3-Fis engagedrwitlrithe.inose of i the wearen, and ris adjustedrtupwardly, downwardly orv invvardly` or wloutvv'ardlyr until the longitudinal edge 9B, and the zero lineA Sl pfthe lscale `92 `are aligned with the respective corneajsl98V of thefeyes. It is to bev understood-thatprior 1to1-,placing ,the trial frame on the-faceofgthe individual theflens cells I2 are adjusted-to properspacedrrelation with eachother,l that is, i .to be* accurate `distance between the pupils .of the: eyes; @This 4is accom-4 plished by adjusting ,the indicators Isl'lt to. the

-proper fitting on the,interpupillaryjscalest406;

formedon the; f ace of the-head L1 Whe'ni inthis adjusted position ltlieliousings containing l,the friction springs "llare againengaged by thengers ofthe practitioner fior:- iexaminerg and are gradually drawn forward to' move the temple ends into proper, engagement vvith-gtheisidesV of the head and the upper rear-.portions-lof the ears of the individual. This vvill retainfthetrial nose padis such thattthe control-button ori-finger piece ndinsimentiremains inIn'iixed-DesiiiendurA-a ine .thetadjueiineniifef A, .c moving partei-lare, ,allfeneasedtparticularly ,the various screwmembers and gears 'so that A.there i is no danger, of having inein-` beeorne entangled.

freine in desired ntted nositonbefore `the ,eyes-.i

Aiinni t Check ist mede canine corneal alignment and slight readjustments ar madegi necessary. The v trial lenses `are;snappedf;inviiemily. fOrOiiie with the ,hnirlei the.indiridneiende're therefore nreiecied. against the entrance 0i @nietdirt-and so forth which might hinder thesmoothgoperaf nis e beintersect.nettesten YCornealr aligning Ineens niet befnosiiieneiint env desired. point :With reference tothe peripheryfiofiA the lens hiders.: 'inni Deinpeernenl aligning. Sun-fy none need nei bef in ,thee-eene herizintal. piane, and that-their position may beichoserl irrespective 0i ine vQSiiien-oi. the ieinniespporte 1, l

From the `foregoing description ift will be seen` that simple, efficient andeonornical meansfare provided for4 accomplishingkall ofthe objects advantages J0i ine intentien,

Hevinedeseribed Onrinventlo. e claim. ,:i1..1 n ,a vdevice of the character described a main slide barfhavi-ng adjustable-'nose engaging means intermediate the` endsz..thereof,`a pair of lensholding membersslidably mounted on said and bar, means carried byl said.v bar for'moving' saidV lens holding members. longitudinally cof' 'said hark including` a; manually joperableii ,portion threadedly connected with: the doarv :andethread-` edly connected with a lens holding. memben'cne of said4 threadconnections; :being :1 a `,right and the'rothelta left handed-,thread producingzcom# `:assegna n 7 the respective lens cell longitudinally of the' slide bar vin a given direction independently of the other of said lens cells and Will simultaneously greatly increase the ratio of sliding movement as compared with the extent of movement 5 of the manually operable means.

WILLIAM F. PECK. ALBIN A. GRADISAR. 

